View clinical trials related to Macular Disease.
Filter by:Age-related macular degeneration (AMD) is the most common visual impairment in persons over 50 years of age. It has been estimated that 1 in 3 individuals over 75 years of age and 1 in 30 individuals over 52 years of age are affected by AMD. The deficits in visual function as a result of this disease affecting the central retina are debilitating, as individuals lose their ability to carry out many of their daily activities that require resolving fine spatial details. The investigator's previous studies have shown that training with oculomotor control exercises significantly increases reading speeds in patients with AMD. In the proposed study, the investigators will examine whether these training exercises are effective when practiced at home. In Phase 1, the investigators will develop a standardized user-friendly, Web-based platform that will allow patients to easily self-administer training exercises. The software platform will be designed to automatically choose the appropriate exercises based on a patient's previous performance, run the training exercise, and collect performance data into a universal patient data file. In Phase 2, the platform will be tested in two settings: in standard clinical rehabilitation practice and in the patient's home. Reading outcomes in the two settings will be compared. The investigators will recruit 60 patients per year for each of the three years for Phase 2 of the study. Half of these patients will be assigned to the Clinic Training Group, while the other half will be assigned to At-home Training Group. For all patients, three assessments will be taken: at baseline, after 1 month, and after 2 months of training. The investigators will compare reading outcomes to assess the roles of feedback versus the role of frequent available practice. Because of the extensive cost and clinical resources required for vision rehabilitation, it is critical to determine whether the training program can be made less expensive, but as effective, when it is self-trained. If the investigators demonstrate the utility of at-home practice, clinical facilities and therapists' time can be made available for those activities requiring face-to-face contact
The primary goal of the trial is to show that optical coherence tomography (OCT) technology can be used to effectively screen for diseases of the eye including glaucoma, macular diseases and keratoconus. Glaucoma is a disease that causes permanent vision loss and is usually accompanied by increased eye pressure. Macular diseases affect sharp, central vision. Keratoconus is a disease that affects the cornea (clear surface covering the colored part of the eye).
Background: - In the eye disease central serous chorioretinopathy (CSC), fluid collects under the retina at the back of the eye. CSC can resolve on its own, but in some people it lasts for several months or can come back. The fluid buildup during CSC can cause vision loss. The drug interferon gamma-1b can help reduce fluid accumulation in the retina. Researchers want to see if interferon gamma-1b can help treat and prevent vision loss from CSC. Objectives: - To see if interferon gamma-1b eye drops are a safe and effective treatment for CSC. Eligibility: - Individuals at least 18 years of age who have CSC in at least one eye. Design: - Participants will be screened with a physical exam and medical history. They will also have an eye exam and blood tests. - This study will require at least ten visits to the National Institutes of Health eye clinic over a total of 52 weeks (one year). Most visits will last up to 4 hours. - Participants will return to the eye clinic 2 days after the first visit and 1, 2, 4, 8, 12, 24, 36 and 48 weeks after starting the study eye drops. These visits will involve blood tests and eye exams. - Participants will receive the study eye drops at the initial visit. The drops must be used three or four times a day for 2 weeks. They must be stored in a cool place (like a refrigerator). The doses will follow an escalation schedule with the first participant receiving 2 drops three times a day and the last participant receiving 4 drops four times a day. To maximize safety, the most-recently enrolled participant will complete Week 4 before the next participant can enroll (e.g., the second enrolled participant will not be enrolled until the first has completed the Week 4 visit). - If the CSC does not improve after the first 2 weeks, participants will receive another 2 weeks of eye drops. This set of drops will start 4 weeks after the initial study visit. - If the CSC does not improve after the 8-week study period, participants may receive additional eye drops at the maximum dose of 4 drops four times daily. - The study will end for each participant at one year (48 weeks after the initial study visit).
this study is to analyze and compare the ultrastructure of the retinal and vitreous plane of the epiretinal membrane and internal limiting membrane removed during macular surgery and to evaluate relation between the ultrastructure of the epiretinal membrane and internal limiting membrane and surgical outcomes.
The purpose of this research is to evaluate novel technologies for the assessment of ocular structure and function, including the scanning device called Optical Coherence Tomography (OCT). We will test the OCT and other devices in their ability to image diseases of the eye and also compare the measurements made with OCT to those of other imaging and visual field devices approved by the Food and Drug Administration (FDA). OCT may be useful for the early diagnosis and monitoring of a variety of types of eye diseases